# Copyright 2009-2013 Free Software Foundation, Inc. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # This file is part of the gdb testsuite. # # This test tests some i386 general instructions for reverse execution. # if ![supports_reverse] { return } if ![istarget "i?86-*linux*"] then { verbose "Skipping i386 reverse tests." return } standard_testfile # some targets have leading underscores on assembly symbols. set additional_flags [gdb_target_symbol_prefix_flags] if {[prepare_for_testing $testfile.exp $testfile $srcfile \ [list debug $additional_flags]]} { return -1 } set end_of_main [gdb_get_line_number " end of main "] set end_of_inc_dec_tests [gdb_get_line_number " end inc_dec_tests "] runto main if [supports_process_record] { # Activate process record/replay gdb_test_no_output "record" "Turn on process record" } global hex global decimal gdb_test "step" "inc .eax.*" "step to inc eax 1st time" send_gdb "info reg eax\n" gdb_expect { -re "eax *($hex)\t.*$gdb_prompt " { set preinc_eax $expect_out(1,string) } } gdb_test "step" "inc .ecx.*" "step to inc ecx 1st time" send_gdb "info reg ecx\n" gdb_expect { -re "ecx *($hex)\t.*$gdb_prompt " { set preinc_ecx $expect_out(1,string) } } gdb_test "step" "inc .edx.*" "step to inc edx 1st time" send_gdb "info reg edx\n" gdb_expect { -re "edx *($hex)\t.*$gdb_prompt " { set preinc_edx $expect_out(1,string) } } gdb_test "step" "inc .ebx.*" "step to inc ebx 1st time" send_gdb "info reg ebx\n" gdb_expect { -re "ebx *($hex)\t.*$gdb_prompt " { set preinc_ebx $expect_out(1,string) } } gdb_test "step" "inc .esp.*" "step to inc esp 1st time" send_gdb "info reg esp\n" gdb_expect { -re "esp *($hex)\t.*$gdb_prompt " { set preinc_esp $expect_out(1,string) } } gdb_test "step" "inc .ebp.*" "step to inc ebp 1st time" send_gdb "info reg ebp\n" gdb_expect { -re "ebp *($hex)\t.*$gdb_prompt " { set preinc_ebp $expect_out(1,string) } } gdb_test "step" "inc .esi.*" "step to inc esi 1st time" send_gdb "info reg esi\n" gdb_expect { -re "esi *($hex)\t.*$gdb_prompt " { set preinc_esi $expect_out(1,string) } } gdb_test "step" "inc .edi.*" "step to inc edi 1st time" send_gdb "info reg edi\n" gdb_expect { -re "edi *($hex)\t.*$gdb_prompt " { set preinc_edi $expect_out(1,string) } } gdb_test "step" "dec .eax.*" "step to dec eax 1st time" send_gdb "info reg eax\n" gdb_expect { -re "eax *($hex)\t.*$gdb_prompt " { set predec_eax $expect_out(1,string) } } gdb_test "step" "dec .ecx.*" "step to dec ecx 1st time" send_gdb "info reg ecx\n" gdb_expect { -re "ecx *($hex)\t.*$gdb_prompt " { set predec_ecx $expect_out(1,string) } } gdb_test "step" "dec .edx.*" "step to dec edx 1st time" send_gdb "info reg edx\n" gdb_expect { -re "edx *($hex)\t.*$gdb_prompt " { set predec_edx $expect_out(1,string) } } gdb_test "step" "dec .ebx.*" "step to dec ebx 1st time" send_gdb "info reg ebx\n" gdb_expect { -re "ebx *($hex)\t.*$gdb_prompt " { set predec_ebx $expect_out(1,string) } } gdb_test "step" "dec .esp.*" "step to dec esp 1st time" send_gdb "info reg esp\n" gdb_expect { -re "esp *($hex)\t.*$gdb_prompt " { set predec_esp $expect_out(1,string) } } gdb_test "step" "dec .ebp.*" "step to dec ebp 1st time" send_gdb "info reg ebp\n" gdb_expect { -re "ebp *($hex)\t.*$gdb_prompt " { set predec_ebp $expect_out(1,string) } } gdb_test "step" "dec .esi.*" "step to dec esi 1st time" send_gdb "info reg esi\n" gdb_expect { -re "esi *($hex)\t.*$gdb_prompt " { set predec_esi $expect_out(1,string) } } gdb_test "step" "dec .edi.*" "step to dec edi 1st time" send_gdb "info reg edi\n" gdb_expect { -re "edi *($hex)\t.*$gdb_prompt " { set predec_edi $expect_out(1,string) } } # gdb_test "step" "end inc_dec_tests .*" "step to end inc_dec_tests 1st time" gdb_test "break $end_of_main" \ "Breakpoint $decimal at .* line $end_of_main\." \ "set breakpoint at end of main" gdb_test "continue" \ " end of main .*" \ "continue to end of main" gdb_test "break $end_of_inc_dec_tests" \ "Breakpoint $decimal at .* line $end_of_inc_dec_tests\." \ "set breakpoint at end of inc_dec_tests" gdb_test "reverse-continue" \ " end inc_dec_tests .*" \ "reverse to inc_dec_tests" # # Now reverse step, and check register values. # gdb_test "info reg edi" "edi *$preinc_edi\t.*" "edi before reverse-dec" gdb_test "reverse-step" "dec .edi.*" "reverse-step to dec edi" gdb_test "info reg edi" "edi *$predec_edi\t.*" "edi after reverse-dec" gdb_test "info reg esi" "esi *$preinc_esi\t.*" "esi before reverse-dec" gdb_test "reverse-step" "dec .esi.*" "reverse-step to dec esi" gdb_test "info reg esi" "esi *$predec_esi\t.*" "esi after reverse-dec" gdb_test "info reg ebp" "ebp *$preinc_ebp\t.*" "ebp before reverse-dec" gdb_test "reverse-step" "dec .ebp.*" "reverse-step to dec ebp" gdb_test "info reg ebp" "ebp *$predec_ebp\t.*" "ebp after reverse-dec" gdb_test "info reg esp" "esp *$preinc_esp\t.*" "esp before reverse-dec" gdb_test "reverse-step" "dec .esp.*" "reverse-step to dec esp" gdb_test "info reg esp" "esp *$predec_esp\t.*" "esp after reverse-dec" gdb_test "info reg ebx" "ebx *$preinc_ebx\t.*" "ebx before reverse-dec" gdb_test "reverse-step" "dec .ebx.*" "reverse-step to dec ebx" gdb_test "info reg ebx" "ebx *$predec_ebx\t.*" "ebx after reverse-dec" gdb_test "info reg edx" "edx *$preinc_edx\t.*" "edx before reverse-dec" gdb_test "reverse-step" "dec .edx.*" "reverse-step to dec edx" gdb_test "info reg edx" "edx *$predec_edx\t.*" "edx after reverse-dec" gdb_test "info reg ecx" "ecx *$preinc_ecx\t.*" "ecx before reverse-dec" gdb_test "reverse-step" "dec .ecx.*" "reverse-step to dec ecx" gdb_test "info reg ecx" "ecx *$predec_ecx\t.*" "ecx after reverse-dec" gdb_test "info reg eax" "eax *$preinc_eax\t.*" "eax before reverse-dec" gdb_test "reverse-step" "dec .eax.*" "reverse-step to dec eax" gdb_test "info reg eax" "eax *$predec_eax\t.*" "eax after reverse-dec" gdb_test "info reg edi" "edi *$predec_edi\t.*" "edi before reverse-inc" gdb_test "reverse-step" "inc .edi.*" "reverse-step to inc edi" gdb_test "info reg edi" "edi *$preinc_edi\t.*" "edi after reverse-inc" gdb_test "info reg esi" "esi *$predec_esi\t.*" "esi before reverse-inc" gdb_test "reverse-step" "inc .esi.*" "reverse-step to inc esi" gdb_test "info reg esi" "esi *$preinc_esi\t.*" "esi after reverse-inc" gdb_test "info reg ebp" "ebp *$predec_ebp\t.*" "ebp before reverse-inc" gdb_test "reverse-step" "inc .ebp.*" "reverse-step to inc ebp" gdb_test "info reg ebp" "ebp *$preinc_ebp\t.*" "ebp after reverse-inc" gdb_test "info reg esp" "esp *$predec_esp\t.*" "esp before reverse-inc" gdb_test "reverse-step" "inc .esp.*" "reverse-step to inc esp" gdb_test "info reg esp" "esp *$preinc_esp\t.*" "esp after reverse-inc" gdb_test "info reg ebx" "ebx *$predec_ebx\t.*" "ebx before reverse-inc" gdb_test "reverse-step" "inc .ebx.*" "reverse-step to inc ebx" gdb_test "info reg ebx" "ebx *$preinc_ebx\t.*" "ebx after reverse-inc" gdb_test "info reg edx" "edx *$predec_edx\t.*" "edx before reverse-inc" gdb_test "reverse-step" "inc .edx.*" "reverse-step to inc edx" gdb_test "info reg edx" "edx *$preinc_edx\t.*" "edx after reverse-inc" gdb_test "info reg ecx" "ecx *$predec_ecx\t.*" "ecx before reverse-inc" gdb_test "reverse-step" "inc .ecx.*" "reverse-step to inc ecx" gdb_test "info reg ecx" "ecx *$preinc_ecx\t.*" "ecx after reverse-inc" gdb_test "info reg eax" "eax *$predec_eax\t.*" "eax before reverse-inc" gdb_test "reverse-step" "inc .eax.*" "reverse-step to inc eax" gdb_test "info reg eax" "eax *$preinc_eax\t.*" "eax after reverse-inc"